Refrigerator

ABSTRACT

A refrigerator having an intermediate storage compartment, which has an improved structure of a return flow passage to return cold air from the intermediate storage compartment. The refrigerator includes a first evaporator to supply cold air to an upper storage compartment, a second evaporator to supply cold air to a lower storage compartment, a cold air supply duct to supply cold air generated at the second evaporator to an intermediate storage compartment, and a curved section formed at a top of the intermediate storage compartment to uniformly distribute the cold air supplied via the cold air supply duct in the intermediate storage compartment. The refrigerator also includes a cold air return duct to return cold air from the intermediate storage compartment, and an ice-making cold air return duct to return cold air from an ice maker. The cold air return duct is joined with the ice-making cold air return duct.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.12/801,104 filed on May 21, 2010, which claims the benefit of KoreanPatent Application Nos. 10-2009-0048272 and 10-2009-0108025,respectively filed on Jun. 1, 2009 and Nov. 10, 2009 in the KoreanIntellectual Property Office, the disclosures of which are incorporatedherein by reference.

BACKGROUND

1. Field

Embodiments relate to a refrigerator, and, more particularly, to arefrigerator having an intermediate storage compartment.

2. Description of the Related Art

Refrigerators are adapted to maintain food in a fresh state for aprolonged period of time by supplying cold air generated through arefrigeration cycle to a storage compartment in which the food isstored.

Generally, such a refrigerator includes a cabinet formed with an upperstorage compartment and a lower storage compartment. The upper storagecompartment is opened or closed by a hinged door pivotally coupled tothe cabinet. A drawer is mounted to the lower storage compartment suchthat the drawer can be extended from or retracted into the lower storagecompartment.

SUMMARY

Therefore, it is an aspect to provide a refrigerator having anintermediate storage compartment, which is capable of uniformlydistributing cold air into the intermediate storage compartment.

Another aspect is to provide a refrigerator having an intermediatestorage compartment, which is capable of supplying cold air from anevaporator for a freezing compartment to the intermediate storagecompartment.

Another aspect is to provide a refrigerator having an intermediatestorage compartment, which has an improved structure of a return flowpassage to return cold air.

Additional aspects will be set forth in part in the description whichfollows and, in part, will be apparent from the description, or may belearned by practice of the invention.

In accordance with one aspect, a refrigerator includes a cabinet formedwith an upper storage compartment, an intermediate storage compartment,and a lower storage compartment, which are partitioned from one anotherby insulated partition walls, a first evaporator to supply cold air tothe upper storage compartment, a second evaporator to supply cold air tothe lower storage compartment, a cold air supply duct to supply cold airgenerated at the second evaporator to the intermediate storagecompartment, and a curved section formed at a top of the intermediatestorage compartment to uniformly distribute the cold air supplied viathe cold air supply duct in the intermediate storage compartment.

The curved section may include a first curved portion arranged at anentrance of the second storage compartment while being downwardlyprotruded, a second curved portion extending inwardly from the firstcurved portion while being sharply inclined in an upward direction, anda third curved portion extending inwardly from the second curved portionwhile being gently inclined in a downward direction.

The refrigerator may further include a cold air return duct to returncold air from the intermediate storage compartment, and an ice-makingcold air return duct to return cold air from an ice maker. The cold airreturn duct may be joined with the ice-making cold air return duct.

An insulated partition wall may be arranged between the cold air returnduct and the ice-making cold air return duct, to insulate the cold airreturn duct and the ice-making cold air return duct from each other.

The intermediate storage compartment may include a cold air inletarranged at one side of a rear portion of the intermediate storagecompartment, to suck cold air from the intermediate storage compartment,the cold air inlet communicating with the cold air return duct, and anintroduction preventing cap arranged to cover an upper portion of thecold air inlet, the introduction preventing cap functioning to preventcold air discharged into the intermediate storage compartment from beingdirectly introduced into the cold air inlet.

The intermediate storage compartment may include a cold air diffusionpassage formed in a top wall of the intermediate storage compartment, tomove cold air supplied via the cold air supply duct.

The intermediate storage compartment may further include at least onecold air outlet formed to allow cold air moved along the cold airdiffusion passage to be discharged into the second storage compartment.

The cold air diffusion passage may be surrounded by an insulator.

The second evaporator may be arranged at a rear side of the intermediatestorage compartment. The cold air supply duct may extend from the secondevaporator to the rear side of the intermediate storage compartment.

The refrigerator may further include a cold air supplier arrangedbeneath a rear wall of the upper storage compartment, to supply cold airto the intermediate storage compartment.

The cold air supplier may include a circulating fan to blow cold air,and a cold air regulator to regulate an amount of cold air to besupplied.

In accordance with another aspect, a refrigerator, which includes acabinet formed with an upper storage compartment, an intermediatestorage compartment, and a lower storage compartment, which arepartitioned from one another by insulated partition walls, furtherincludes a first evaporator to supply cold air to the upper storagecompartment, a second evaporator to supply cold air to the lower storagecompartment, a cold air supply duct to supply cold air generated at thesecond evaporator to the intermediate storage compartment, and a coldair diffuser formed at a top of the intermediate storage compartment,the cold air diffuser having a curved structure to allow the cold airsupplied from the second evaporator to be diffused after reaching afront side of the intermediate storage compartment.

The cold air diffuser may include a first curved portion arranged at anentrance of the second storage compartment while being downwardlyprotruded, a second curved portion extending inwardly from the firstcurved portion while being sharply inclined in an upward direction, anda third curved portion extending inwardly from the second curved portionwhile being gently inclined in a downward direction.

The refrigerator may include a cold air return duct to return cold airfrom the intermediate storage compartment, and an ice-making cold airreturn duct to return cold air from an ice maker. The cold air returnduct may be joined with the ice-making cold air return duct.

An insulated partition wall may be arranged between the cold air returnduct and the ice-making cold air return duct, to insulate the cold airreturn duct and the ice-making cold air return duct from each other.

The intermediate storage compartment may include a cold air inletarranged at one side of a rear portion of the intermediate storagecompartment, to suck cold air from the intermediate storage compartment,the cold air inlet communicating with the cold air return duct, and anintroduction preventing cap arranged to cover an upper portion of thecold air inlet, the introduction preventing cap functioning to preventcold air discharged into the intermediate storage compartment from beingdirectly introduced into the cold air inlet.

The intermediate storage compartment may include a cold air diffusionpassage formed in a top wall of the intermediate storage compartment, tomove cold air supplied via the cold air supply duct.

The intermediate storage compartment may further include at least onecold air outlet formed to allow cold air moved along the cold airdiffusion passage to be discharged into the second storage compartment.

The cold air diffusion passage may be surrounded by an insulator.

The second evaporator may be arranged at a rear side of the intermediatestorage compartment. The cold air supply duct may extend from the secondevaporator to the rear side of the intermediate storage compartment.

The refrigerator may further include a cold air supplier arrangedbeneath a rear wall of the upper storage compartment, to supply cold airto the intermediate storage compartment.

The cold air supplier may include a circulating fan to blow cold air,and a cold air regulator to regulate an amount of cold air to besupplied.

In the above-described refrigerator, cold air may be uniformlydistributed in the intermediate storage compartment by virtue of thecurved section formed at the top of the intermediate storagecompartment.

Also, cold air may be supplied to the interior of the intermediatestorage compartment by virtue of the cold air diffusion passage formedin the top wall of the intermediate storage compartment.

This cold air is supplied from the evaporator of the lower storagecompartment, which may be used for a freezing compartment.

BRIEF DESCRIPTION OF THE DRAWINGS

These and/or other aspects will become apparent and more readilyappreciated from the following description of the embodiments, taken inconjunction with the accompanying drawings of which:

FIG. 1 is a perspective view illustrating an outer appearance of arefrigerator according to an exemplary embodiment in a state in which arefrigerating compartment door is opened;

FIG. 2 is a front view of the refrigerator shown in FIG. 1;

FIG. 3 is a sectional view of the refrigerator shown in FIG. 1 in astate in which the refrigerating compartment door, a first drawer, and asecond drawer are closed;

FIG. 4 is a view illustrating a flow of cold air at a rear side of therefrigerator according to an exemplary embodiment;

FIG. 5 is an enlarged view illustrating a flow of cold air in a secondstorage compartment in the case of FIG. 4;

FIG. 6 is a sectional view of the second storage compartment;

FIG. 7 is a view illustrating the top of the second storage compartment;

FIG. 8 is a perspective view illustrating the interior of the secondstorage compartment;

FIG. 9 is an enlarged sectional view illustrating a cold air inlet ofthe second storage compartment;

FIG. 10 is a sectional view of a second storage compartment according toanother embodiment;

FIG. 11 is a view illustrating the top of the second storage compartmentin the case of FIG. 10; and

FIG. 12 is an enlarged view illustrating an internal flow passage formedin the top of the second storage compartment in the case of FIG. 10.

DETAILED DESCRIPTION

Hereinafter, a refrigerator according to an exemplary embodiment will bedescribed with reference to the accompanying drawings.

FIG. 1 is a perspective view illustrating an outer appearance of arefrigerator according to an exemplary embodiment in a state in which arefrigerating compartment door is opened. FIG. 2 is a front view of therefrigerator shown in FIG. 1. FIG. 3 is a sectional view of therefrigerator shown in FIG. 1 in a state in which the refrigeratingcompartment door, a first drawer, and a second drawer are closed.

As shown in FIGS. 1 to 3, the refrigerator includes a cabinet 10 definedwith a plurality of storage compartments, namely, a first storagecompartment 20, a second storage compartment 30, and a third storagecompartment 40, partitioned from one another and forwardly opened. Therefrigerator also includes first and second hinged doors 50 a and 50 bpivotally coupled to left and right sides of the cabinet 10, to open orclose the first storage compartment 20, a first drawer 61 slidablymounted to the second storage compartment 30 such that the first drawer61 can be extended from or retracted into the second storage compartment30, and a second drawer 62 slidably mounted to the third storagecompartment 40 such that the second drawer 62 can be extended from orretracted into the third storage compartment 40. For reference, as seenin FIG. 1, the first storage compartment 20 is arranged at an upperportion of the refrigerator, the third storage compartment 40 isarranged at a lower portion of the refrigerator, and the second storagecompartment 30 is arranged between the first storage compartment 20 andthe third storage compartment 40.

The cabinet 10 includes an inner case 11 a, an outer case 11 b, and aninsulator 12 filled between the inner case 11 a and the outer case 11 b.The cabinet 10 also includes first and second insulated partition walls13 and 14, which partition the first storage compartment 20, secondstorage compartment 30, and third storage compartment 40. The firstinsulated partition wall 13 partitions the first storage compartment 20and second storage compartment 30, whereas the second insulatedpartition wall 14 partitions the second storage compartment 30 and thirdstorage compartment 40.

The inner case 11 a may be bent to form outer structures of the firstand second insulated partition walls 13 and 14. The insulator 12 may befilled between the inner case 11 a and the outer case 11 b by injectinga urethane foaming liquid between the inner case 11 a and the outer case11 b, and then heating the urethane foaming liquid, to foam the urethanefoaming liquid. The cabinet 10 has an integrated structure including thefirst and second insulated partition walls 13 and 14. Accordingly, anenhanced insulation effect is provided among the storage compartments.Reference numeral “15” designates a rack coupled to the cabinet 10, tocontain food to be stored.

The first storage compartment 20, second storage compartment 30, andthird storage compartment 40 defined in the cabinet 10 form independentstorage spaces, respectively. The storage temperatures of the firststorage compartment 20, second storage compartment 30, and third storagecompartment 40 are independently controlled in accordance withrespective amounts of cold air supplied to the first storage compartment20, second storage compartment 30, and third storage compartment 40. Theamounts of cold air supplied to respective storage compartments 20, 30,and 40 are controlled by a controller C, which controls a first cold airregulator 23, a second cold air regulator 33, and a third cold airregulator 43. Thus, the user may set a desired temperature of eachstorage compartment, in order to use the storage compartment for aparticular purpose, if necessary. For example, the first storagecompartment 20, second storage compartment 30, and third storagecompartment 40 may be used as a refrigerating compartment, a freshcompartment, and a freezing compartment, respectively.

First and second evaporators 91 and 92, which generate cold air, arearranged at a rear wall of the cabinet 10. A machinery compartment 16 isdefined at a lower rear portion of the cabinet 10. In the machinerycompartment 16, electric elements including, for example, a compressor93, etc. are installed. The compressor 93 constitutes a refrigerationcycle, together with a condenser (not shown), an expansion valve (notshown), and the evaporators 91 and 92.

At least one rack 51 is provided at an inner surface of each of thefirst and second hinged doors 50 a and 50 b. At the first hinged door 50a, a dispenser 53 is also provided to selectively distribute water orice. Although not shown, an auxiliary door may be provided at at leastone of the first and second hinged doors 50 a and 50 b.

The dispenser 53 includes an outlet 54 to discharge water or ice, anopening/closing member 55 to open or close the outlet 54, and anactuating lever 56 to actuate the opening/closing member 55 and toactuate an ice maker 70 arranged at an upper portion of the firststorage compartment 20.

The ice maker 70 includes an ice making unit 71 to produce ice to besupplied to the dispenser 53, an ice container 72 arranged beneath theice making unit 71, to store the produced ice, a feeding unit 73 to feedthe ice stored in the ice container 72, and an ice crushing unit 74 tocrush the ice fed by the feeding unit 73. In accordance with thisconfiguration, the ice stored in the ice container 72 is sequentiallyfed to an ice discharge passage 52 provided at the first hinged door 50a.

As described above, the first drawer 61 is arranged such that it isextended from or retracted into the second storage compartment 30 of thecabinet 10. In this case, the height H from a bottom surface of thecabinet 10 to an upper end of the first drawer 61 may be about 850 to950 mm. Accordingly, a user of mean stature of 150 to 190 cm may easilyextend or retract the first drawer 61 from or into the cabinet 10 andmay easily put articles into or take articles out of a receiving spaceof the first drawer 61, without excessively bending his back.

A first panel 21 is mounted to a rear wall of the first storagecompartment 20. The first panel 21 partitions, from the first storagecompartment 20, a space where the first evaporator 91 is installed. Thefirst panel 21 also defines a first cold air supply passage 21 a. Thefirst panel 21 is formed with a plurality of outlets 21 b todistributively discharge cold air supplied through the first cold airsupply passage 21 a into the first storage compartment 20, and an inlet21 c to introduce cold air from the first storage compartment 20 towardthe first evaporator 91. The first cold air supply passage 21 acommunicates with the outlets 21 b at one end of the first cold airsupply passage 21 a while communicating with the inlet 21 c at the otherend of the first cold air supply passage 21 a. A first circulating fan22 is arranged over the first evaporator 91. By the first circulatingfan 22, cold air in the first storage compartment 20 passes through thecold air supply passage 21 a after being introduced into the inlet 21 c.Thereafter, the cold air is discharged from the cold air supply passage21 a through the outlets 21 b. The cold air is cooled by the firstevaporator 91 while passing through the cold air supply passage 21 a.The amount of cold air supplied to the first storage compartment 20 maybe regulated by the first cold air regulator 23.

A cold air discharge member 31 is provided at a rear central portion ofthe second storage compartment 30. The cold air discharge member 31 isformed with an outlet 31 b to distributively discharge cold air into thesecond storage compartment 30. A cold air inlet 37 is formed at one sideof a rear portion of the second storage compartment 30, to suck cold airfrom the second storage compartment 30. Accordingly, cold air dischargedout of the outlet 31 b of the cold air discharge member 31 is introducedinto the cold air inlet 37 after circulating the interior of the secondstorage compartment 30.

A cold air supplier 35 is provided in the interior of the cold airdischarge member 31 beneath a rear wall of the first storage compartment20, to supply cold air to the second storage compartment 30. The coldair supplier 35 includes a second circulating fan 32 to blow cold air tothe outlet 31 b. The second cold air regulator 33, which regulates theamount of cold air to be supplied to the second storage compartment 30,is also included in the cold air supplier 35.

The cold air supplier 35 is arranged beneath the rear wall of the firststorage compartment 20 so that repair or replacement of the cold airsupplier 35 may be conveniently achieved. That is, the entirety of thecold air supplier 35 may be conveniently repaired or replaced onlythrough separation and coupling of the rear wall of the first storagecompartment 20.

The second storage compartment 30 receives cold air generated at thesecond evaporator 92. This will be described later.

A second panel 41 is mounted to a rear wall of the third storagecompartment 40. The second panel 41 partitions, from the third storagecompartment 40, a space where the second evaporator 92 is installed. Thesecond panel 41 also defines a second cold air supply passage 41 a. Thesecond panel 41 is formed with a plurality of outlets 41 b todistributively discharge cold air supplied through the second cold airsupply passage 41 a into the third storage compartment 40, and an inlet41 c to introduce cold air from the third storage compartment 40 towardthe second evaporator 92. The second cold air supply passage 41 acommunicates with the outlets 41 b at one end of the second cold airsupply passage 41 a while communicating with the inlet 41 c at the otherend of the second cold air supply passage 41 a. A third circulating fan42 is arranged over the second evaporator 92. By the third circulatingfan 42, cold air in the third storage compartment 40 passes around thesecond evaporator 92, and then returns to the third storage compartment40. Thus, the cold air is circulated. The amount of cold air supplied tothe third storage compartment 40 may be regulated by the third cold airregulator 43.

Reference numeral “75” designates an ice-making cold air supply duct,through which cold air generated at the second evaporator 92 passes, soas to be supplied to the ice maker 70. Reference numeral “76” designatesan ice-making cold air return duct, through which cold air from the icemaker 70 is returned toward the second evaporator 92. In this case, thecirculation of cold air may be achieved by a fourth circulating fan 77arranged upstream from the ice-making cold air supply duct 75.

In an exemplary embodiment, the refrigerator may further include an airfilter 80 to remove offensive odors or bacteria from the cold aircirculating the first storage compartment 20.

As described above, the refrigerator according to the illustratedembodiment may store at least three kinds of food having differentoptimal storage temperatures under respective optimal low-temperatureconditions because the refrigerator is provided with three storagecompartments partitioned by insulated partition walls such that they areindependently cooled. In particular, elongate food products such aspizza and fish may be stored at respective optimal temperatures thereofin the second and third storage compartments 30 and 40 because the firstand second drawers 61 and 62 are installed at the second and thirdstorage compartments 30 and 40, respectively. Also, taking ergonomicsinto consideration, the height from the bottom surface of the cabinet 10to the upper end of the first drawer 61 is determined to be about 850 to950 mm. Accordingly, it may be possible to provide remarkably-enhanceduse convenience for the first drawer 61 to users of mean stature of 150to 190 cm.

The amount of cold air supplied to the first storage compartment 20, theamount of cold air supplied to the second storage compartment 30, andthe amount of cold air supplied to the third storage compartment 40 areregulated by the first cold air regulator 23, second cold air regulator33, and third cold air regulator 43, respectively. In the illustratedembodiment, each of the first cold air regulator 23, second cold airregulator 33, and third cold air regulator 43 has a damper structure toregulate the opening degree of the associated cold air flow passage. Ofcourse, each cold air regulator is not limited to such a structure. Forexample, the cold air regulators, which have a damper structure, may bedispensed with. In this case, the blowing fan provided in each flowpassage may provide a cold air regulating function. The amount of coldair supplied by the blowing fan may be determined on the basis of anelectrical load applied to the blowing fan. Of course, both the cold airregulator, which has a blowing fan structure, and the cold airregulator, which has a damper structure, may be provided.

FIG. 4 is a view illustrating a flow of cold air at the rear side of therefrigerator according to an exemplary embodiment of the presentinvention. FIG. 5 is an enlarged view illustrating a flow of cold air inthe second storage compartment in the case of FIG. 4.

As shown in FIGS. 4 and 5, a cold air supply duct 110 is formed at arear central portion of the refrigerator, to supply cold air generatedat the second evaporator 92 to the second storage compartment 30. Thecold air supply duct 110 communicates with the second cold air supplypassage 41 a at one end of the cold air supply duct 110 whilecommunicating with the cold air discharge member 31 at the other end ofthe cold air supply duct 110. The cold air supply duct 110 extends froma rear side of the second evaporator 92 to a rear side of the secondstorage compartment 30.

A cold air return duct 130 is provided at one side of the ice-makingcold air return duct 76. The cold air return duct 130 communicates withthe cold air inlet 37 at one end of the cold air return duct 130 whilecommunicating with the second cold air supply passage 41 a at the otherend of the cold air return duct 130. The cold air return duct 130 isjoined with the ice-making cold air return duct 76. An insulatedpartition wall 150 is arranged between the cold air return duct 130 andthe ice-making cold air return duct 76, in order to provide aninsulating effect.

As the cold air return duct 130 partially occupies a space where theice-making cold air return duct 76 is occupied. Accordingly, anenhancement in space utility may be achieved. By virtue of installationof the insulated partition wall 150, it may be possible to solve dewingand frosting problems incurred due to a cold air temperature differencecaused by adjacent arrangement of the cold air return duct 130 andice-making cold air return duct 76. The insulated partition wall 150 maybe made of at least one of an expanded polystyrene material and aurethane material.

Thus, cold air generated at the first evaporator 91 may be supplied tothe first storage compartment 20 via the first cold air supply passage21 a, whereas cold air generated at the second evaporator 92 ispartially supplied to the third storage compartment 40 while beingpartially supplied to the second storage compartment 30 via the cold airsupply duct 110. Of course, these cold air supply structures areillustrative, and may be varied. For example, the cold air generated atthe first evaporator may be supplied to the first and second storagecompartment, and the cold air generated at the second evaporator may besupplied to the third storage compartment. Also, the refrigerator mayinclude a single evaporator. In this case, cold air generated at thesingle evaporator may be distributively supplied to the first, second,and third storage compartments. Alternatively, the refrigerator mayinclude three evaporators corresponding to respective storagecompartments. In this case, cold air generated at each evaporator may besupplied to the storage compartment corresponding to the evaporator.

FIG. 6 is a sectional view of the second storage compartment. FIG. 7 isa view illustrating the top of the second storage compartment. FIG. 8 isa perspective view illustrating the interior of the second storagecompartment. FIG. 9 is an enlarged sectional view illustrating the coldair inlet of the second storage compartment.

As shown in FIGS. 6 and 7, a curved section 170 is formed at the top ofthe second storage compartment 30. The curved section 170 includes afirst curved portion 172 arranged at an entrance of the second storagecompartment 30 while being downwardly protruded, a second curved portion174 extending inwardly from the first curved portion 172 while beingsharply inclined in an upward direction, and a third curved portion 176extending inwardly from the second curved portion 174 while being gentlyinclined in a downward direction.

As the curved section 170 is formed at the top of the second storagecompartment 30, it may be possible to uniformly distribute cold air inthe second storage compartment 30. That is, it may be possible to solveproblems incurred in the case in which the top of the second storagecompartment 30 is planar, as in conventional cases, for example, roughflow of cold air and a phenomenon in which cold air discharged from therear side of the second storage compartment 30 cannot reach the frontside of the second storage compartment 30. In this regard, the curvedsection 170 functions as a cold air diffuser to diffuse cold air.

The first curved portion 172 defines a narrow space, in order tomaximally prevent loss of cold air at the entrance of the second storagecompartment 30. On the other hand, the second curved portion 174 andthird curved portion 176 define a wide cold air flow space over a frontportion of the second storage compartment 30, in order to allow cold airto flow smoothly such that the cold air reaches the front side of thesecond storage compartment 30. In conventional structures, it isdifficult to supply cold air to the front side of the second storagecompartment 30.

Referring to FIGS. 8 and 9, an introduction preventing cap 39 isarranged over the cold air inlet 37. The introduction preventing cap 39functions to prevent cold air discharged out of the outlet 31 b of thecold air discharge member 31 from being directly introduced into thecold air inlet 37 without circulating the interior of the second storagecompartment 30. That is, the introduction preventing cap 39 enhances theinternal energy efficiency of the second storage compartment 30.

The introduction preventing cap 39 is formed to surround an upperportion of the cold air inlet 37. Accordingly, the introductionpreventing cap 39 prevents cold air from being introduced into the coldair inlet 37 through the upper portion of the cold air inlet 37, butallows cold air to be introduced into the cold air inlet 37 through alower portion of the cold air inlet 37 after circulating the secondstorage compartment 30. Thus, only the cold air, which has a relativelyhigh temperature, is selectively introduced into the cold air inlet 37in accordance with the introduction preventing cap 39.

Hereinafter, operation of the refrigerator according to the illustratedembodiment will be described.

When the refrigerator operates in accordance with supply of electricpower thereto, air present around the first and second evaporators 91and 92 is cooled, so that cold air is generated. The cold air generatedat the first evaporator 91 is supplied to the first storage compartment20 via the first cold air supply passage 21 a. The cold air is returnedto the first evaporator 91 through the inlet 21 c after circulating thefirst storage compartment 20. Thus, the cold air is repetitivelycirculated. Meanwhile, the cold air generated at the second evaporator92 is partially supplied to the third storage compartment 40 via thesecond cold air supply passage 41 a. This cold air is returned to thesecond evaporator 92 through the inlet 41 c after circulating the thirdstorage compartment 40. Thus, a portion of the cold air generated at thesecond evaporator 92 is repetitively circulated.

The remaining portion of the cold air generated at the second evaporator92 is introduced into the cold air supply duct 110, and is thendischarged into the second storage compartment 30 through the outlet 31b of the cold air discharge member 31. The discharged cold air isuniformly distributed in the second storage compartment 30 by virtue ofthe curved section 170 formed at the top of the second storagecompartment 30. In this case, the cold air is supplied even to the frontside of the second storage compartment 30. In conventional cases, it isdifficult to supply cold air to the front side of the second storagecompartment 30.

It may also be possible to achieve an enhancement in energy efficiencyby virtue of the provision of the introduction preventing cap 39 becausethe cold air discharged out of the outlet 31 b is introduced into thecold air inlet 37 after circulating the second storage compartment 30,without being directly introduced into the cold air inlet 37.

The cold air introduced into the cold air inlet 37 after circulating thesecond storage compartment 30 is moved to the second cold air supplypassage 41 a via the cold air return duct 130. During this movement,there is no dewing or frosting problem by virtue of the insulatedpartition wall 150 arranged between the cold air return duct 130 and theice-making cold air return duct 76.

Hereinafter, another embodiment will be described with reference to theaccompanying drawings. No description will be given of the sameconstituent elements as those of the previous embodiment of the presentinvention.

FIG. 10 is a sectional view of a second storage compartment according toanother embodiment of the present invention. FIG. 11 is a viewillustrating the top of the second storage compartment. FIG. 12 is anenlarged view illustrating an internal flow passage formed in the top ofthe second storage compartment.

As shown in FIGS. 10 to 12, the second storage compartment 30 includes acold air diffusion passage 200 formed in a top wall of the secondstorage compartment 30. The cold air diffusion passage 200 has astructure capable of more uniformly distributing cold air in the secondstorage compartment 30. In conventional cases, cold air discharged froman outlet formed at the rear side of the second storage compartment 30first comes into contact with food arranged near the outlet, and thenflows to a portion of the second storage compartment 30 remote from theoutlet. When the cold air reaches the second storage compartment portionremote from the outlet, it may have an excessively high temperature. Tothis end, the cold air diffusion passage 200 has a structure capable ofeffectively supplying cold air even to a second storage compartmentregion where cold air may not reach, while maintaining the cold air in alow temperature state.

The cold air diffusion passage 200 takes the form of a separate passagein the top wall of the second storage compartment 30. The cold airdiffusion passage 200 communicates with the cold air supply duct 110.

The cold air diffusion passage 200 includes one or more cold air outlets210 open to the second storage compartment 30. The cold air outlets 210are holes formed to allow cold air moved along the cold air diffusionpassage 200 to be finally discharged into the second storage compartment30. The cold air outlets 210 are concentratedly arranged at the frontside of the second storage compartment 30.

The cold air diffusion passage 200 is surrounded by an insulator 205, soas to be insulated from the surroundings. The insulator 205 may includeat least one of an expanded polystyrene material and a urethanematerial.

Although a few embodiments have been shown and described, it would beappreciated by those skilled in the art that changes may be made inthese embodiments without departing from the principles and spirit ofthe invention, the scope of which is defined in the claims and theirequivalents.

What is claimed is:
 1. A refrigerator comprising: a cabinet formed withan upper storage compartment, an intermediate storage compartment, and alower storage compartment, which are partitioned from one another byinsulated partition walls; a first evaporator to supply cold air to theupper storage compartment; a second evaporator to supply cold air to thelower storage compartment; a cold air supply duct to supply cold airgenerated at the second evaporator to the intermediate storagecompartment; and a curved section formed at a top of the intermediatestorage compartment to uniformly distribute the cold air supplied viathe cold air supply duct in the intermediate storage compartment.